Flame-retardant fabrics are made by adding flame retardants with flame retardant functions to fibers through polymer polymerization, blending, copolymerization, composite spinning, extrusion modification and other technologies to make the fibers flame-retardant.
Carbon fiber has reliable performance, light weight and cost-effectiveness, especially high strength, low thermal expansion and corrosion resistance, which makes its application in many fields possible.
Para-aramid is mainly used in the field of bulletproof, non-metallic self-supporting optical cables, high-end cables in marine engineering, and composite materials.
Para-aramid is a high-performance fiber composed of liquid crystal polymer aromatic polyamide. It has been widely used in national defense, aerospace and many civilian fields.
Heat-resistant polymer materials have good performance in high-temperature environments, such as high-temperature strength, high heat resistance, low creep, and good processing properties.
Silicon carbide fiber has the advantages of high temperature oxidation resistance, high hardness, high strength, high thermal stability, corrosion resistance and low density.
Carbon fiber has excellent physical and chemical properties such as high strength, high modulus, low density, light weight, chemical corrosion resistance, and high temperature resistance.